Standard

Possible ways to increase the efficiency of a low-pressure water vapour discharge as a light source. / Artamonova, E.; Artamonova, T.; Beliaeva, A.; Khodorkovskii, M.; Melnikov, A.; Michael, D.; Mikhailov, D.; Pastor, A.; Murashov, S.; Rakcheeva, L.; Serdobintsev, P.; Timofeev, N.; Zissis, G.

In: Lighting Research and Technology, Vol. 49, No. 2, 01.01.2017, p. 259-276.

Research output: Contribution to journalArticlepeer-review

Harvard

Artamonova, E, Artamonova, T, Beliaeva, A, Khodorkovskii, M, Melnikov, A, Michael, D, Mikhailov, D, Pastor, A, Murashov, S, Rakcheeva, L, Serdobintsev, P, Timofeev, N & Zissis, G 2017, 'Possible ways to increase the efficiency of a low-pressure water vapour discharge as a light source', Lighting Research and Technology, vol. 49, no. 2, pp. 259-276. https://doi.org/10.1177/1477153515602741, https://doi.org/DOI: 10.1177/1477153515602741

APA

Artamonova, E., Artamonova, T., Beliaeva, A., Khodorkovskii, M., Melnikov, A., Michael, D., Mikhailov, D., Pastor, A., Murashov, S., Rakcheeva, L., Serdobintsev, P., Timofeev, N., & Zissis, G. (2017). Possible ways to increase the efficiency of a low-pressure water vapour discharge as a light source. Lighting Research and Technology, 49(2), 259-276. https://doi.org/10.1177/1477153515602741, https://doi.org/DOI: 10.1177/1477153515602741

Vancouver

Artamonova E, Artamonova T, Beliaeva A, Khodorkovskii M, Melnikov A, Michael D et al. Possible ways to increase the efficiency of a low-pressure water vapour discharge as a light source. Lighting Research and Technology. 2017 Jan 1;49(2):259-276. https://doi.org/10.1177/1477153515602741, https://doi.org/DOI: 10.1177/1477153515602741

Author

Artamonova, E. ; Artamonova, T. ; Beliaeva, A. ; Khodorkovskii, M. ; Melnikov, A. ; Michael, D. ; Mikhailov, D. ; Pastor, A. ; Murashov, S. ; Rakcheeva, L. ; Serdobintsev, P. ; Timofeev, N. ; Zissis, G. / Possible ways to increase the efficiency of a low-pressure water vapour discharge as a light source. In: Lighting Research and Technology. 2017 ; Vol. 49, No. 2. pp. 259-276.

BibTeX

@article{b18a3307ee82459882072a68dba8b3af,
title = "Possible ways to increase the efficiency of a low-pressure water vapour discharge as a light source",
abstract = "Methods to increase the efficiency of a rare gas-water vapour plasma as a light source are presented: (1) the addition of a second rare gas (2) the use of titanium dioxide to enhance the decomposition of water molecules into hydroxyl and hydrogen; (3) pulse discharge operation to improve the efficiency. Analysis shows that the first two methods can yield an increase in efficiency. Use of the catalyst produced a tangible impact on plasma properties and an increase in efficiency that was experimentally observed and agrees with theoretical estimates. In pulse discharge operation, negative ions that are probably created in the afterglow phase eliminate the desired effect. The data obtained using these three approaches, point towards possible directions for further investigation and predict the expected results in case of successful implementation.",
author = "E. Artamonova and T. Artamonova and A. Beliaeva and M. Khodorkovskii and A. Melnikov and D. Michael and D. Mikhailov and A. Pastor and S. Murashov and L. Rakcheeva and P. Serdobintsev and N. Timofeev and G. Zissis",
year = "2017",
month = jan,
day = "1",
doi = "10.1177/1477153515602741",
language = "English",
volume = "49",
pages = "259--276",
journal = "Lighting Research and Technology",
issn = "1477-1535",
publisher = "SAGE",
number = "2",

}

RIS

TY - JOUR

T1 - Possible ways to increase the efficiency of a low-pressure water vapour discharge as a light source

AU - Artamonova, E.

AU - Artamonova, T.

AU - Beliaeva, A.

AU - Khodorkovskii, M.

AU - Melnikov, A.

AU - Michael, D.

AU - Mikhailov, D.

AU - Pastor, A.

AU - Murashov, S.

AU - Rakcheeva, L.

AU - Serdobintsev, P.

AU - Timofeev, N.

AU - Zissis, G.

PY - 2017/1/1

Y1 - 2017/1/1

N2 - Methods to increase the efficiency of a rare gas-water vapour plasma as a light source are presented: (1) the addition of a second rare gas (2) the use of titanium dioxide to enhance the decomposition of water molecules into hydroxyl and hydrogen; (3) pulse discharge operation to improve the efficiency. Analysis shows that the first two methods can yield an increase in efficiency. Use of the catalyst produced a tangible impact on plasma properties and an increase in efficiency that was experimentally observed and agrees with theoretical estimates. In pulse discharge operation, negative ions that are probably created in the afterglow phase eliminate the desired effect. The data obtained using these three approaches, point towards possible directions for further investigation and predict the expected results in case of successful implementation.

AB - Methods to increase the efficiency of a rare gas-water vapour plasma as a light source are presented: (1) the addition of a second rare gas (2) the use of titanium dioxide to enhance the decomposition of water molecules into hydroxyl and hydrogen; (3) pulse discharge operation to improve the efficiency. Analysis shows that the first two methods can yield an increase in efficiency. Use of the catalyst produced a tangible impact on plasma properties and an increase in efficiency that was experimentally observed and agrees with theoretical estimates. In pulse discharge operation, negative ions that are probably created in the afterglow phase eliminate the desired effect. The data obtained using these three approaches, point towards possible directions for further investigation and predict the expected results in case of successful implementation.

UR - http://www.scopus.com/inward/record.url?scp=85018189280&partnerID=8YFLogxK

U2 - 10.1177/1477153515602741

DO - 10.1177/1477153515602741

M3 - Article

VL - 49

SP - 259

EP - 276

JO - Lighting Research and Technology

JF - Lighting Research and Technology

SN - 1477-1535

IS - 2

ER -

ID: 5811762